EP2176523A1

EP2176523A1 - Internal combustion engine valve train switching device

Info

Publication number: EP2176523A1
Application number: EP08785400A
Authority: EP
Inventors: Alexander Von Gaisberg-Helfenberg; Jens Meintschel; Thomas Stolk
Original assignee: Daimler AG
Current assignee: Mercedes Benz Group AG
Priority date: 2007-08-10
Filing date: 2008-08-07
Publication date: 2010-04-21
Anticipated expiration: 2028-08-07
Also published as: JP2010535967A; CN101779008B; EP2176523B1; WO2009021669A1; US20100199934A1; CN101779008A; US8347837B2; DE102007037745A1; JP5487452B2

Abstract

The invention relates to an internal combustion engine valve train switching device having a switching unit (36). The invention provides that the switching device (36) has an actuating device (38) having at least one control track (5, 6) that is formed by means of at least two switching units (1, 2) of the actuating unit (38).

Description

combustion engine valve

The invention relates to an internal combustion engine valve drive switching device according to the preamble of claim 1.

From DE 10 2005 006 489 A1 is a

Internal combustion engine valve drive switching device in which coupled switching operations are performed simultaneously.

The invention has the object of providing a valve train switching device in such a way that both construction volume and weight as well as costs can be saved at a high reliability. The object is achieved in each case by the features of the independent claims, wherein further embodiments of the invention can be taken from the subclaims.

The invention is based on an internal combustion engine valve drive switching device with a switching unit.

It is proposed that the switching unit has an execution unit with at least one control link, which is formed by at least two switching units of the execution unit. A "switching unit" is to be understood as meaning, in particular, a unit which is intended to effect a switching operation of at least one valve drive. "An" execution unit "is to be understood in particular as a unit which at least partially carries out a process, in particular a switching process. A "control link" should in particular be understood to mean at least one molding or a plurality of moldings together with their edges, which are intended to guide a switching means in at least one switching operation, and individually or together over a certain one Angular range, as preferred over more than 10 °, advantageously over more than 80 ° and more preferably over more than 180 °, extend in the circumferential direction of a drive shaft or connected to a drive shaft component, wherein the formations may be spatially separated from each other and this spatial separation can be canceled by a switching operation. A "shaping" is to be understood in particular as meaning an elevation or a recess which may have various extension forms that appear appropriate to the person skilled in the art, such as, in particular, an elongated extension shape. should be understood in particular a narrow recess. By a "survey" is meant in particular a raised position in comparison to the surface surrounding the position and / or a bulge. "A switching operation" is to be understood in particular to mean a relative movement and in particular an axial relative movement between two components. A "switching unit" is to be understood as meaning, in particular, a unit which is intended to bring about a switching operation, in particular also in cooperation with at least one switching means or another unit is intended to effect a switching operation, in particular also in cooperation with at least one switching unit or another unit. With an embodiment according to the invention, a simple construction of the switching unit can be achieved.

In a preferred embodiment of the invention, the execution unit has at least two control means, which are positioned on mutually facing ends of at least two of the switching units of the execution unit. In particular, the extent of the individual control means can thus be reduced. A "control means" is to be understood as meaning, in particular, a means for controlling an operation, in particular for controlling a shift operation., In particular, the shift units may be associated with different valves, which may in particular be associated with different cylinders Switching units be associated with only one valve.

Preferably, the control gate is formed by the control means. This can be realized in a simple manner, a switching device for switching operations between the switching units and the switching means. Preferably, the control link is designed such that the switching units can be actuated by a switching means of the execution unit in a defined switching sequence. Thus, the control scenes can be used in a continuous operation. A "defined switching sequence" should be understood in particular to take place according to a defined procedure and at least partially offset in time and / or separate switching operations, which are particularly suitable for permanent operation with at least two occurring defined switching sequences.

It is further proposed that the execution unit has at least one switching means, which is intended to effect a switching of a valve train by interacting with the control link. Hereby, a reliable change of valve lift curves can be achieved.

Preferably, the execution unit has at least one switching means and at least one of the switching units at least one control means, wherein the control means and the switching means are provided to change due to an interaction with each other at least one function of the switching unit and / or the switching means. Hereby, a compact switching structure can be achieved. By a "function" is meant in particular a mode of action and in particular a mode of action in an interaction with another structural unit, which may be, for example, the switching means or the switching unit.

In this connection, an advantage may be achieved by the function of immersing the switching means in the switching unit and / or pushing out the switching means from the switching unit and / or operating the switching unit by the switching means and / or switching the switching means from a switching unit another switching unit and / or calming the movement of a switching unit is. Thus, an effective mechanical switching device can be realized. By "immersing" the switching means in the switching unit, it is intended in particular to mean retraction of the switching means in the form of an elevation or pin into a groove or slot of a switching unit or designed as a pin switching means by pushing out of the groove or the slot of the switching unit to be understood. With a "calming down" movement one Switching unit should also be understood a rest position of the switching unit relative to the switching means after a movement of the switching unit relative to the switching means.

Preferably, the execution unit comprises at least one switching means, which is provided to act on the control link in at least one radial direction. This allows a structurally simple interaction between switching means and control link can be achieved. A "radial direction" is to be understood as meaning, in particular, a direction radial with respect to a drive shaft. "Actuating" the control link by the switching means should in particular mean that the switching means is intended, in the case of a movement, to form a control link apply and / or act with a force.

The execution unit can comprise an electronic evaluation unit and be provided to carry out a second switching operation on the basis of at least one signal, a first switching operation and then, depending on an electronic evaluation, a second switching operation. However, the execution unit is particularly advantageously provided for carrying out a first switching operation on the basis of at least one signal and then carrying out a second switching operation independently of an electronic evaluation. In particular, a "signal" should be understood to mean in particular a triggering process and / or a sign, such as a current pulse with a defined meaning and / or an application initiated from outside the execution unit and / or positioning a mechanical component in a switching position and / or mechanical interaction are understood. A "triggering operation" is to be understood in particular as meaning a mechanical, electrical, quantum-mechanical and / or electromechanical process, which in particular can lead to a specific positioning of a switching means In this context, an "execution unit" is to be understood in particular as a unit which due to a signal performs at least one operation once and which in particular of mechanical, quantum mechanical, electrical and / or electromagnetic components and in particular also of electronic components, if they do not affect the process at least insignificantly and particularly advantageous, may be formed. The fact that a switching operation takes place "after" another switching operation, should be understood in particular that the switching operations take place at least partially offset in time and / or particularly advantageous in time are overlap-free. An electronic "evaluation" is intended to mean, in particular, an electronic classification and / or evaluation of a condition and / or a signal and / or an operation / or electromagnetic means automated execution. According to the invention, a compact and reliable functioning structure can be achieved in a structurally simple manner.

In a preferred embodiment of the invention, the execution unit is at least partially formed as a mechanical unit. This can save design costs.

It is also proposed that the execution unit is at least partially designed as a transmission. Thus, a simple construction of the execution unit can be achieved. The transmission can be designed in particular as a cam gear. Furthermore, other, the expert appear appropriate sense gearbox conceivable, such as gear transmission, lever mechanism, hydraulic transmission, etc.

Advantageously, the execution unit is provided to effect a switching of a valve train and / or a change of at least one valve lift curve and / or switching off at least one valve and / or at least one change of operating modes of an internal combustion engine. Hereby, a simple and efficient operation of the valves of a valve train can be achieved. A "valve train" is to be understood in particular as an assembly which is intended to at least partially permit a gas exchange in internal combustion engines based on a reciprocating piston engine / or at least one function of the valve train and / or changing between different operating modes are understood. By a "valve lift curve" is meant the graph of the function obtained by measuring the valve lift, which is measured relative to the cylinder to which the valve is associated, above the rotation angle of the drive shaft associated with the valve train in a Cartesian coordinate system The term "different operating modes" should be understood to mean, in particular, the actuation of valves with different control times and / or valve lift curves. Under a "change of operating modes" is to be understood in particular the operation of the internal combustion engine with full load, with partial load, in the auto-ignition, with cylinder deactivation, with early or late inlet closure or other, the skilled worker appear appropriate modes.

In an advantageous embodiment of the invention, the execution unit comprises at least one switching means, and the execution unit is provided to actuate the switching units independently of one another in at least one operating mode, at least as a function of the positions of the switching units relative to the switching means. Thus, the number of required switching means can be reduced. By "actuating" a switching unit, the execution unit is intended in particular to mean cooperation and / or interaction of the execution unit or parts of the execution unit with the switching unit, which can effect a switching operation In particular, it is meant that actuation of a switch unit by the lead-out unit does not affect actuation of another switch unit by the lead-out unit. An "operating mode" is to be understood in particular as a type of operation.

In a preferred embodiment of the invention, the execution unit has at least one switching means, which is provided to actuate the at least two switching units at least partially offset in time in at least one operating mode. Hereby, the number of required switching means can be reduced.

It is also proposed that the execution unit has at least one switching means which is provided to actuate at least one of the switching units in dependence on at least one change in position of at least one of the switching units relative to the switching means. Hereby, the number of required switching units and the number of necessary switching means can be reduced.

It is also proposed that the execution unit has at least two switching devices assigned to different switching means. Thus, a switching operation can be designed in a component saving manner. A "switching direction" is to be understood in particular as meaning a direction in which a component is moved, in particular translationally, in a switching operation effected at least in part by the switching means, in particular being moved in translation also superimposed movements, such as translational and rotational movements conceivable.

Advantageously, the switching units are at least partially decoupled in their movement and correspond with at least one switching means of the execution unit. Thus, the switching units can be moved relative to the switching means in different directions. In particular, one switching unit may rest relative to the switching means while another switching unit moves relative to the switching means. A switching unit which "corresponds to the switching means" is to be understood as meaning in particular a switching unit which is designed such that it allows a switching operation in cooperation with the switching means. for which at least one movement of a switching unit relative to the other switching unit in at least one operating mode is independent of this.

Furthermore, it is proposed that the execution unit is provided to actuate at least two switching units simultaneously in at least one operating mode. This can be achieved in a structurally simple manner that a switching means can actuate two switching units at least partially decoupled.

In addition, it is proposed that the execution unit have a camshaft, at least a large part of those shifting units, by which valve lift curves of valves which are assigned to the camshaft changeable, and at least one switching means, which is intended to actuate the switching units. This can be a coherent switching achieved and thus a malfunction of individual cams are prevented. In particular, at least fifty percent, in particular at least seventy percent and particularly advantageously at least ninety percent of the total number should be meant by a "majority." A valve should be "assigned" to a camshaft, in particular, when the valve is directly or indirectly opened by means of the camshaft and / or closed.

Preferably, the execution unit comprises a switching means, which is designed as a switching pin. For a cost-effective design of the switching means is possible. Advantageously, the execution unit comprises at least one switching means, which is provided to effect, by interacting with at least one switching unit, an axial displacement of the switching unit relative to the switching means and thereby a switching of at least one valve train. Hereby, the valve train can be switched in a structurally simple way. An "axial" displacement of the switching unit should in particular be understood to mean a displacement of the switching unit in a main extension direction of a drive shaft, which may be a camshaft.

Furthermore, it is proposed that at least one switching unit is formed as an axially displaceable portion of a camshaft with cams with at least partially different contour. In this way, the switching unit can immediately perform a switching operation on a cam. A "cam" is intended in particular to mean a curve-like projection on a shaft which rotates in an operating mode and may be designed as a camshaft. "A contour formed at least partially differently" is intended in particular to mean a different extent of the projections of different cams and / or a cam are understood.

Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The description and claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Showing:

1 parts of an internal combustion engine Ventiltriebumschaltvorrichtung with a switching unit,

2 is a development of a control block,

3 is a plan view of developments of two control scenes,

4a and 4b an intermediate state at a first step of

Switching to the right,

5a and 5b an intermediate state at a second step of

Switching to the right, 6a and 6b an intermediate state at a third step of

Switching to the right, Fig. 7a and 7b an intermediate state in a fourth step of

Switching to the right, Fig. 8a and 8b an intermediate state at a fifth step of

Switching to the right, Fig. 9a and 9b an intermediate state at a sixth step of

Switching to the right, Fig. 10a and 10b an intermediate state in a seventh step of

Switching to the right, Fig. 11 a and 11 b an intermediate state at an eighth step of

Switching to the right, Fig. 12a and 12b an intermediate state at a first step of

Switching operation to the left, Fig. 13a and 13b an intermediate state at a second step of

Switching operation to the left, Figs. 14a and 14b an intermediate state at a third step of

Switching operation to the left, Fig. 15a and 15b an intermediate state at a fourth step of

Switching operation to the left, Fig. 16a and 16b an intermediate state at a fifth step of

Switching operation to the left, Fig. 17a and 17b an intermediate state at a sixth step of

Switching operation to the left, Fig. 18a and 18b an intermediate state at a seventh step of

Switching operation to the left and FIGS. 19a and 19b an intermediate state at an eighth step of FIG

Switching to the left.

1 shows an internal combustion engine valve drive switching device with a switching unit 36, which has two actuators 64, 65, a camshaft 46 and an execution unit 38, which is provided to perform a second switching operation on the basis of a signal, a first switching operation and then independently of an electronic evaluation. The execution unit 38 has exclusively mechanical components and is consequently designed as a mechanical unit 40. Furthermore, the execution unit 38 comprises two switching means 3, 4, each formed by a switching pin, which can be actuated by the actuators 64, 65 or moved out of the actuators 64, 65. In addition, the execution unit 38 comprises switching units 1, 2, which are parts of the camshaft 46. The switching units 1, 2 have a common main extension direction, which coincides with a main extension direction of the camshaft 46. The switching means 3, 4 also have a common main extension direction which extends radially to the camshaft 46 and to the switching units 1, 2.

The switching means 3, 4 are each provided to actuate the two switching units 1, 2. In the extension of a switching means 3, 4, which takes place in its main direction of extension to the switching units 1, 2, first a loading of a switching unit 1, 2 and then an interaction between the switching means 3, 4 and the switching units 1, 2 takes place, which is described with reference to Figures 4a to 19b and due to which an axial displacement of the switching units 1, 2 takes place relative to the switching means 3, 4 along the main extension direction of the switching units 1, 2. With the axial displacement of the switching units 1, 2 is an axial displacement of belonging to the switching units 1, 2 cams 7, 8, 48, 50, 26, 27, 28, 29, 30, 31 instead. The cams 7, 8 and 48, 50 have a different contour such that the maximum radial extent of the cams 8, 50 differs from the maximum radial extent of the cams 48, 7. Since the camshaft 46 comprises only the cams 7, 8, 48, 50, 26, 27, 28, 29, 30, 31, both switching means 3, 4 can each have those switching units 1, 2, through which valve lift curves of valves, that of the camshaft 46 are assigned, are changeable, press.

The switching unit 1 has a control means 52, which is formed by sections 9, 11, 13, 16, 18 (see Figure 3), which are formed by four grooves. Furthermore, the switching unit 2 has a control means 54, which is formed by sections 10, 12, 14, 15, 17 (see Figure 3), which are formed by four grooves. The control means 52, 54 are positioned in end regions or on ends 56, 58 of the switching units 1, 2, which face each other in the main extension direction of the camshaft 46 and are directly adjacent. The control means 52, 54 form two control slots 5, 6, which are arranged one behind the other in the main direction of extension of the camshaft 46. The control scenes 5, 6 are thus each formed by the two switching units 1, 2. The switching means 3, 4 are arranged so that they can act on the control gates 5, 6 in the radial direction in a switching operation. The switching means 3, 4 are arranged along the main direction of extension of the camshaft 46 in the same sequence as the control tracks 6, 5 one behind the other. The switching means 3 can act on the control link 6 and the switching means 4, the control link 5.

FIG. 2 shows a development of one of the control slots 5 or 6, which extends over more than one camshaft revolution, namely approximately 540 °. In principle, other angle ranges which appear reasonable to the person skilled in the art are also conceivable.

According to the invention, each of the control slots 5, 6 allows a change of the switching means 3, 4 during a switching operation from one switching unit 2 to another switching unit 1 and back.

Figure 3 shows schematically a plan view of the developments of the control blocks 5 and 6, which form a transmission 42, which is designed as a cam gear. The settlement of the two control scenes 5, 6 is formed by two L-shaped parts of a settlement of the switching units 1, 2, which have a rectangular shape between two switching operations, in which different switching means 3, 4 are involved. An L-shaped part in each case comprises two halves of the control cams 5, 6, which belong to different control cams 5, 6. The control blocks 5, 6 have the sections 9 to 18, which cause different functions of the switching means 3, 4 and / or the switching units 1, 2 in interaction with the switching means 3, 4, wherein the different sections 9 to 18 of the control blocks 5, 6 in response to a rotational angle of the camshaft 46 (see Figure 1) with the switching means 3, 4 come into operative connection.

The sections 9 to 18 are immersion sections 9 and 10, operating sections 11 and 12, Ausschiebeabschnitte 13 and 14, transition sections 15 and 16 and reassurance sections 17 and 18. The functions is a dipping of the switching means 3, 4 in the immersion section 9, 10 of the control link 5 or 6, a pushing out of the switching means 3, 4 from a Ausschiebeabschnitt 13, 14 of the control link 5 or 6, operating at least one of the switching units 1 or 2, by the switching unit 1, 2 on the in the operating section 11, 12 located switching means 3, 4 is moved, a Transferring the switching means 3, 4 from one of the switching units 1, 2 to another switching unit 1, 2 and calming the switching movement of one of the switching units 1, 2. The switching means 3, 4 come in dependence on the direction of rotation of the camshaft 46 with the sections. 9 to 18 in different order in operative connection.

FIGS. 4a, 4b to 11a, 11b and 12a, 12b to 19a, 19b show, by means of individual intermediate states, a switchover of valve drives which are actuated by the cams 7, 8, 48, 50 of the camshaft 46 (see FIG. 1), by axial displacement of the two switching units 1, 2, wherein in the figures 4a, 4b to 11a, 11b, the switching operation to the right and in Figs. 12a, 12b to 19a, 19b, the switching operation is shown to the left. In the switching operation to the left, the switching units 1, 2 move such that the ends 56, 58 move relative to the switching means 3, 4 in the direction of the cams 48, 50 in a main extension direction 62 (see FIGS. 16a and b) of the camshaft 46 (see Figure 1). When switching to the right, the switching units 1, 2 move in a direction opposite main extension direction 60 (see Figures 5a and 5b). The switching operations to the right and to the left each consist of two switching operations in which the individual switching units 1, 2 are moved relative to the switching means 3, 4 in the axial direction.

In the following, the switching operation is executed to the right. In a first step according to FIGS. 4a and 4b, the right-hand switching means 3 is retracted by the actuator 65 (see FIG. 1) into the immersion section 9 of the control link 6 on the basis of a signal given by the actuator 65 in the form of a magnetic field. In a second step according to FIGS. 5 a and 5 b, the right-hand switching means 3 is located in the actuating section 12 of the control link 6 and starts to shift the right-hand switching unit 2 in the main extension direction 60 of the camshaft 46 (see FIG. 1), which is an axial direction , In a third step according to FIGS. 6a and 6b, the displacement of the right-hand switching unit 2 is calmed and is then completed. After shifting the switching unit 2, which is a position change relative to the switching means 3, 4, the switching means 3 actuates the switching unit 1. In a fourth step shown in FIG. 7a and 7b, the right switching means 3 is just before the operating portion 11 of the control link 6 of the switching unit 1. In a fifth step shown in FIG. 8a and 8b, the right switching means 3 is in the operating portion 11 of the control link 6 of the left switching unit 1 and starts its displacement in the Main extension direction 60. In a sixth step according to FIGS. 9a and 9b, the displacement of the left switching unit 1 is completed. In a seventh step according to FIGS. 10 a and 10 b, the right-hand switching means 3 is located in the push-out section 14 of the control link 6 of the right-hand switching unit 2 and is pushed back into the starting position in the direction of a vertical axis 19, which in the radial direction relative to the camshaft 46 (see FIG FIG. 1). In an eighth step according to FIGS. 11a and 11b, the right-hand switching means 3 is again in the starting position. The two switching operations in which the switching units 1, 2 are shifted to the right relative to the switching means 3, 4, so run after the actuator 64 or the actuator 65 (see Figure 1) has given the signal, with rotating camshaft 46 automated , So without further, coming from outside of the execution unit 38 signals. The same applies to the switching operations in which the switching units 1, 2 are successively moved to the left. Although during the first half of a shift to the left or to the right, in which a shift unit 1, 2 is shifted, an angular speed at which the camshaft 46 rotates, can change, finds the second half of the shift, in which the other switching unit 1, 2 is axially displaced in the same direction, automated and independent of an electronic measurement of the angular velocity or other electronic evaluation instead.

The following describes the switching operation to the left. In a first step according to FIGS. 12 a and 12 b, the left-hand switching means 4 is retracted by the actuator 64 (see FIG. 1) into the immersion section 10 of the control link 5 on the basis of a signal given by the actuator 64. In a second step according to FIGS. 13a and 13b, the left-hand switching means 4 is located shortly before the beginning of the actuating section 11 of the control link 5 in the left-hand switching unit 1. In a third step according to FIGS. 14a and 14b, the left-hand switching means 4 is located in FIG Operating portion 11 of the control link 5 of the left switching unit 1 and starts to shift the left switching unit 1 in the main extension direction 62, which is also an axial direction. In a fourth step according to FIGS. 15 a and 15 b, the displacement of the left switching unit 1 to the left is completed. In a fifth step according to FIGS. 16 a and 16 b, the displacement of the right-hand switching unit 2 in the main extension direction 62 begins to the left. In order to shift the switching units 1, 2 to the left, the switching means 4 must therefore actuate the switching units 1, 2 independently of each other. In a sixth step according to FIGS. 17a and 17b, the displacement of the right-hand switching unit 2 is calmed and is then completed. In one The seventh step according to FIGS. 18 a and 18 b, the left switching means 4 is in the Ausschiebeabschnitt 13 of the control link 5 of the left switching unit 1 and is pushed back into the starting position in the direction of a vertical axis 20. In an eighth step according to FIGS. 19 a and 19 b, the left switching means 4 is again in the starting position. When changing over the switching means 4 of a switching unit 1, 2 to another switching unit 1, 2, both switching units 1, 2 are operated simultaneously at times. The same applies to the switching process to the right. In all described switching operations, the switching means 3, 4 correspond to the switching units 1, 2.

Due to the nature of the control blocks 5, 6, the two switching units 1, 2 can be actuated by the switching means 3, 4 in a defined switching sequence. The switching operations to the left and to the right can therefore be repeated as often as desired in alternating order. The switching units 1, 2 are brought by the control scenes 5, 6 to the immersion, actuation, change over and calm again and again in different switching states.

In the switching operations to the left or to the right, the switching units 1, 2 are shifted individually and successively in the same direction to the left or to the right. The switching units 1, 2 are thus partially decoupled in their movement in the main extension direction of the camshaft 46 (see FIG. 1).

With reference to the described switching operations it can be seen that by means of the left switching means 4 switching operations to the left and by means of the right switching means 3 switching operations are executed to the right. Thus, each switching means 3, 4 each assigned a switching direction.

In the described switching of the valve trains the valve lift curves of valves, which are opened and closed due to the rotation of the camshaft 46 in an operating mode, are changed. Furthermore, valves can be switched off by the switching and thus remain closed. With a change of the valve lift curves may be accompanied by a change of the operating modes of the internal combustion engine.

Claims

claims

An internal combustion engine valve drive switching device comprising a switching unit (36), characterized in that the switching unit (36) has an execution unit (38) with at least one control link (5, 6), which comprises at least two switching units (1, 2) of the execution unit (38). is formed.

2. internal combustion engine Ventiltriebumschaltvorrichtung according to claim 1, characterized in that the Ausführeinheit (38) at least two control means (52, 54) which on mutually facing ends (56, 58) of at least two of the switching units (1, 2) of the Ausführeinheit (38 ) are positioned.

3. Brennkraftmaschinenventiltriebumschaltvorrichtung according to claim 2, characterized in that the control link (5, 6) by the control means (52, 54) is formed.

4. internal combustion engine Ventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the control link (5, 6) is designed such that the switching units (1, 2) by a switching means (3, 4) of the execution unit (38) in a defined switching sequence are operable.

5. internal combustion engine Ventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), which is intended to effect by switching with the control link (5, 6), a switching of a valve train ,

6. internal combustion engine Ventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the execution unit (38) at least one switching means (3, 4) and at least one of the switching units (1, 2) at least one control means (52, 54), wherein the control means ( 52, 54) and the switching means (3, 4) are provided to change due to an interaction with each other at least one function of the switching unit (1, 2) and / or the switching means (3, 4).

7. internal combustion engine Ventililthebumschaltvorrichtung according to claim 6, characterized in that the function is a dipping of the switching means (3, 4) in the switching unit (1, 2) and / or a pushing out of the switching means (3, 4) from the switching unit (1, 2) and / or an actuation of the switching unit (1, 2) by the switching means (3, 4) and / or a changeover of the switching means (3, 4) from one switching unit (1, 2) to another switching unit (1, 2) and / or calming the movement of a switching unit (1, 2).

8. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), which is intended to act on the control link (5, 6) in at least one radial direction.

9. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) is provided to perform a second switching operation based on at least one signal, a first switching operation and then independently of an electronic evaluation.

10. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) is at least partially formed as a mechanical unit (40).

11. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) is at least partially formed as a transmission.

12. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) is provided to switch a valve train and / or a change of at least one valve lift curve and / or switching off at least one valve and / or at least one change of operating modes to cause an internal combustion engine.

13. internal combustion engine valve drive switching device according to one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), and the Ausführeinheit (38) is provided, at least in dependence on the positions of the switching units (1, 2 ) relative to the switching means (3, 4) to operate the switching units (1, 2) independently in at least one operating mode.

14. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), which is provided in at least one operating mode, the at least two switching units (1, 2) at least partially offset in time to press.

15. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), which is provided, depending on at least one change in position of at least one of the switching units (1, 2) relative to the switching means (3, 4) to actuate at least one of the switching units (1, 2).

16. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least two different switching directions associated switching means (3, 4).

17. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the switching units (1, 2) are at least partially decoupled in their movement and with at least one switching means (3, 4) of the Ausführeinheit (38) correspond.

18. Brennkraftmaschinenventilthebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) is provided to actuate at least two of the switching units (1, 2) in at least one operating mode simultaneously.

The internal combustion engine valve drive switching device according to one of the preceding claims, characterized in that the execution unit (38) comprises a camshaft (46), at least a majority of those switching units (1, 2) through which valve lift curves of valves associated with the camshaft (46) , are changeable, and at least one switching means (3, 4), which is intended to actuate the switching units (1, 2).

20. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) comprises a switching means (3, 4), which is designed as Schaltpin.

21. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that the Ausführeinheit (38) at least one switching means (3, 4), which is intended, by an interaction with at least one switching unit (1, 2), an axial displacement of the switching unit (1, 2) relative to the switching means (3, 4) and thereby to effect a switching of at least one valve train.

22. Brennkraftmaschinenventiltriebumschaltvorrichtung according to any one of the preceding claims, characterized in that at least one switching unit (1, 2) as axially displaceable portion of a camshaft (46) with cams (7, 8, 26, 27, 28, 29, 30, 31, 48 , 50) is formed with at least partially different contour.

23. Internal combustion engine valve drive switching method, in particular with an internal combustion engine valve drive switching device according to one of the preceding claims, wherein due to at least one signal, a first switching operation and then independent of an electronic evaluation second switching operation can be performed.

24. internal combustion engine Ventiltriebumschaltverfahren according to claim 23, characterized in that at least one switching means (3, 4) and at least two switching units (1, 2) comprising Ausführeinheit (38) at least in response to positions of the switching units (1, 2) relative to the switching means (3, 4) the switching units (1, 2) operated independently in at least one operating mode.

25. Brennkraftmaschinenventiltriebumschaltverfahren according to any one of claims 23 or 24, characterized in that a switching means (3, 4) different switching units (1, 2) in dependence on

Changes in position of the switching units (1, 2) relative to the switching means (3, 4) actuated.